JPH08294127A - Image compressor - Google Patents

Abstract

PURPOSE: To realize a high compression rate by allowing the image compressor to recognize a speed of each object being a component of an image, deteriorating the image quality of an object at a high speed and decreasing the number of frames to be updated of an object at a low speed. CONSTITUTION: Image information and position information of an object inputted from an input section 21 are compressed as they are with respect to a first frame and the position information is stored in a storage section 22 and the image information is stored in an image storage section 25. As to 2nd and succeeding frames, when an image is outputted from an output section, the position input signal is stored in the storage section 22 and the image information is stored in the image storage section 25. Furthermore, a difference is calculated from the position information inputted to a position comparison section 23 and when the difference is small, the image information is not outputted from the output section 24 and when the difference is large, the image compression section 26 conducts high compression with deteriorating the image quality in the case of compression.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image compression apparatus which realizes high compression by changing the compression rate for each object.

[0002]

2. Description of the Related Art Recently, MPEG has been used as a next-generation image compression technology.
4 Standards are under discussion. As an implementation plan of MPEG4,
Hierarchical compression methods have been proposed.

This is because an image is divided into one having a background portion and a motion, each of which is defined as an object, and the entire image information is sent to the first frame, and the difference between objects other than the background in the subsequent frames. It only sends information. A conventional image compression apparatus will be specifically described with reference to the drawings.

FIG. 9 shows 4 times from the beginning of a sample moving image.
Represents a frame. The screen is a background "mountain",
It consists of a "person" moving on the screen at a slow speed and a "car" moving at a high speed.

An image is input for each object in which movement is organized, and each of them is composed of image information and position information on the screen.

FIG. 7 shows a conventional image compression apparatus. Reference numeral 31 is an input unit for inputting image information and position information for each object, 32 is an image storage unit for storing image information of the previous frame of each object, and 33 is image information of the previous frame and image of the current frame. An image compression unit that compresses an image using information.

In the first frame, the input image information is stored as it is in the image storage section 32 corresponding to the object, and is compressed by the image compression section 33 and output.

From the second frame onward, background image information is not output. For other objects, the image compression information is output by compressing the difference between the image information stored in the image storage unit 33 in the previous frame and the current image information.

This situation will be described with reference to the compressed data diagram of FIG. In the first frame, the background, people, cars
Each is compressed to a data amount of 4 units (position information is minute, so it is ignored in this chart). In the subsequent frames, the background is stationary, so it is not output, but for other people and cars, the difference between the image of the previous frame is sent, so a smaller amount of data is output than in the first frame. . Here, it is assumed that each is compressed into a data amount of 2 units.

Therefore, the conventional image compression apparatus can compress a moving image of four frames into a data amount of 24 units.

[0011]

In the configuration of the above-mentioned conventional image compression apparatus, the difference in the position information of each object,
That is, the speed for the screen is not taken into consideration, and for both fast and slow speeds,
Moving objects are compressed uniformly.

Further, since the background itself moves with respect to the screen where the camera pans, high compression cannot be expected with this compression method.

In order to solve the above problems, the present invention provides
An object of the present invention is to provide a higher compression image compression device based on motion information of an object.

[0014]

In order to achieve the above object, the present invention uses a difference value of position information input together with image information of an object, and controls on / off of image output according to the difference value. An object having a large difference value outputs image information in many frames, and an object having a small position difference value thins out frames outputting image information.

Similarly, using the difference value of the position information,
At the time of image compression, an object having a large difference value has a characteristic that visible sensitivity (moving visual acuity) is reduced, and a method of higher compression is used instead of degrading image quality (rough quantization).

More specifically, the image compression apparatus of the present invention is an apparatus for compressing each object that moves the same on the screen, and an input unit for inputting position information and image information of the object, and the object. A plurality of storage units that hold the position information of the object, a position comparison unit that calculates a difference between the position information from the input unit and the position information stored in the storage unit, and output the image information and the position information of the object An output unit, a plurality of image storage units that store the image information output from the output unit, and image compression that performs image compression using the image information output from the output unit and the output from the image storage unit as input And an image output unit that outputs the image compression information output from the image compression unit and the position information output from the output unit, and configures a screen in the first frame. For each object, the position information and the image information input from the input unit are stored in the storage unit, the image information is output from the output unit, and the image information output from the output unit is stored in the image storage unit. The image compression information stored in the image compression unit and output to the image output unit, the position information output from the output unit is output to the image output unit, and the second and subsequent frames are output. On the other hand, for each of the objects that form the screen, the position comparison unit calculates the difference between the position information input from the input unit and the position information stored in the storage unit, and the difference value is a constant value. If it is larger, the image information input from the input unit is output from the output unit, and the contents of the image storage unit in which the image information of the object output from the output unit is stored and the image information. After compressing the image, outputting the image compression information to the image output unit, reading the contents of the storage unit, storing the image information output from the output unit in the image storage unit, and outputting from the output unit. The position information is output to the image output unit.

An apparatus for compressing each object that moves the same on the screen, an input unit for inputting position information and image information of the object, and a plurality of storage units for holding the position information of the object, A position comparison unit that calculates a difference between the position information from the input unit and the position information stored in the storage unit, an output unit that outputs the image information and the position information of the object, and an output unit that outputs the position information. A plurality of image storage units that store image information, an image compression unit that performs image compression using the image information output from the output unit and the output from the image storage unit as input, and an image output from the image compression unit An image output unit that outputs compression information and position information output from the output unit is provided, and in the first frame, for each of the objects that form the screen,
The position information and the image information input from the input unit are stored in the storage unit, and the image information is output from the output unit,
The image information output from the output unit is stored in the image storage unit, and the image compression information compressed by the image compression unit is output to the image output unit, and the position information output from the output unit is stored. For the second and subsequent frames, the difference between the position information input from the input unit and the position information stored in the storage unit is output to the image output unit and the second and subsequent frames. The position comparison unit calculates the difference value, outputs the difference value to the image compression unit, outputs the image information input from the input unit from the output unit, and stores the image information of the object output from the output unit. By inputting the contents of the image storage unit and the image information that have been stored, the image is compressed at a compression rate based on the difference information from the position comparison unit, and the image compression information is output to the image output unit. In memory After reading, to store the image information outputted from the output unit in the image storage unit, and is characterized in that outputs position information outputted from the output unit to the image output unit.

Further, in addition to the above, for the second and subsequent frames, the difference between the position information input from the input unit and the position information stored in the storage unit is calculated for each object constituting the screen. The image information input from the input unit is output from the output unit only when the difference value calculated by the position comparison unit is larger than a certain value.

[0019]

According to the present invention, the difference value of the position information input together with the image information of the object is used, and the ON / OFF of the image output is controlled according to the difference value. And output
Since an object whose position difference value is small is thinned out in frames from which image information is output, a higher compression image compression apparatus can be provided by not sending the image information of an object whose motion is small.

Further, when the image is compressed by using the difference value of the position information, an object having a large difference value lowers the visual sensitivity (moving visual acuity) to lower the image quality (quantize Since it is made coarse), a higher compression rate can be obtained accordingly.

Further, from both of the above characteristics, both of the advantages of not sending an image of a slow-moving object and degrading the image quality of a fast-moving object,
An image compression apparatus having a higher compression rate than the conventional example can be obtained.

Further, in any of the inventions, the background is not distinguished and compressed, but the background is recognized as an object whose movement is extremely slow, so that the background cannot be compressed even in a moving picture whose screen is panned. It will be possible.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An image compression apparatus according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic block diagram of an image compression apparatus according to the first embodiment of the present invention.

In FIG. 1, 1 is an input unit for inputting image information and position information, 2 is a storage unit for storing position information of each object, and 3 is position information stored in the storage unit 2 and input unit 1. The position comparison unit 4 which takes the difference from the input position information receives the image information and the position information from the input unit 1 and controls the output of the information according to the difference value output from the position comparison unit 3. An output unit 5 performs an image storage unit that stores image information for each object, and 6 generates compressed image information from the image information stored in the image storage unit 5 and the image information output from the output unit 4. An image compression unit 7 is an image output unit that outputs compressed image compression information and position information.

In the first frame, the input position information is stored in the storage unit 2 corresponding to the object, and the image information is stored in the image storage unit 5 corresponding to the object via the output unit 4. Further, the image information is compressed by the image compression unit 6 and output from the image output unit 7.

From the second frame onward, the difference between the position information of each object and the previous position information stored in the storage unit 2 is calculated, and if the difference value is greater than a certain value, the output unit 4 The image information is output from and the content of the storage unit 2 is rewritten with new position information. However, when the difference value is equal to or less than a certain value, neither the rewriting of the storage unit 2 nor the output from the output unit 4 is performed. That is, it is considered that an object having a small movement ratio does not have a great influence on the image quality of the entire screen even if the image is not updated until the movement value becomes large.

This situation will be described with reference to the compressed data diagram of FIG. In the first frame, like the conventional example,
The background, the person, and the car are each compressed into a data amount of 4 units. In the subsequent frames, the background is stationary, so it does not output, but it does output for people and cars. But,
Since the speed (movement value) of the person is smaller than the speed of the vehicle, the image of the person is updated every two frames.

The image compression information for updating has the same two-unit data amount as in the conventional example, but since the data amount for a human object can be reduced, the image compression apparatus of the first embodiment has four frames worth of data. The moving image can be compressed to a data amount of 20 units (24 units in the conventional example).

FIG. 2 is a schematic block diagram of an image compression apparatus according to the second embodiment of the present invention.

In FIG. 2, 11 is an input unit for inputting image information and position information, 12 is a storage unit for storing the position information of each object, and 13 is the position information stored in the storage unit 12 and the input unit 11. A position comparison unit that obtains the difference from the input position information, 14 an output unit that outputs image information and position information from the input unit 11, 15 an image storage unit that stores image information for each object, and 16 an image storage An image compression unit that compresses the image information stored in the unit 15 and the image information output from the output unit 14 based on the difference value output from the position comparison unit 13, and 17 is the compressed image compression information and position. An image output unit that outputs information.

In the first frame, the input position information is stored in the storage unit 12 corresponding to the object, and the image information is stored in the image storage unit 15 corresponding to the object via the output unit 14. Furthermore, the image information is
The image is compressed by the image compression unit 16 and output from the image output unit 17.

From the second frame onward, the difference between the position information of each object and the previous position information stored in the storage unit 12 is calculated, and according to the difference value,
The compression rate of the image compression in the image compression unit 16 is changed.

That is, since the visual sensitivity of a human moving body is generally low, an object having a large difference value is considered to have a high speed, and the compression of such an object deteriorates the image quality to a high compression. However, since an object with a low speed is compressed with priority on image quality, it is considered that the effect on the image quality of the entire screen is small.

This state will be described with reference to the compressed data diagram of FIG. In the first frame, like the conventional example,
The background, the person, and the car are each compressed into a data amount of 4 units. In the subsequent frames, the background is stationary, so it does not output, but it does output for people and cars. But,
Since the speed of a car is faster than the speed of a person, the data that was conventionally compressed into 2 units of data should be compressed into 1 unit.

That is, since the image compression information for updating the image of the car is half that of the conventional example, in the image compression apparatus of the second embodiment, 21 units of moving images for four frames (24 in the conventional example). It can be compressed to the data amount of (unit).

FIG. 3 is a schematic block diagram of an image compression apparatus according to the third embodiment of the present invention.

In FIG. 3, 21 is an input unit for inputting image information and position information, 22 is a storage unit for storing position information for each object, and 23 is the position information stored in the storage unit 22 and the input unit 21. A position comparison unit 24, which takes the difference from the input position information, receives the image information and the position information from the input unit 21, and controls the output of the information according to the difference value output from the position comparison unit 23. An output unit 25 performs image output for each object, and an image storage unit 26 stores image information stored in the image storage unit 25 and image information output from the output unit 24 from the position comparison unit 23. An image compression unit for compressing based on the difference value according to the reference numeral 27 is an image output unit for outputting the compressed image compression information and the position information.

In the first frame, the input position information is stored in the storage unit 22 corresponding to the object, and the image information is stored in the image storage unit 25 corresponding to the object via the output unit 24. Furthermore, the image information is
The image is compressed by the image compression unit 26 and output from the image output unit 27.

From the second frame onward, the difference between the position information of each object and the previous position information stored in the storage unit 2 is calculated, and if the difference value is greater than a certain value, the output unit 4 The image information is output from and the content of the storage unit 2 is rewritten with new position information. However, when the difference value is equal to or less than a certain value, neither the rewriting of the storage unit 2 nor the output from the output unit 4 is performed. In addition, the position comparison unit 12
The compression rate of the image compression in the image compression unit 16 is changed according to the difference value output from.

That is, the third embodiment is the first and second embodiments.
A synergistic effect can be obtained. This situation will be described with reference to the compressed data diagram of FIG.

In the first frame, the background, the person, and the car are each compressed into a data amount of 4 units, as in the conventional example. In the subsequent frames, the car has a high speed and therefore is compressed with one unit of data, and the human has a slow speed and is updated every two frames.

With the image compression apparatus of the third embodiment, a moving image for four frames can be compressed into a data amount of 17 units (24 units in the conventional example).

[0044]

According to the present invention, with the above configuration, the image quality of a fast object is reduced to realize high compression according to the difference in the position of the object, that is, the speed with respect to the screen, and the slow object is imaged. The amount of data is reduced by reducing the number of frames for updating.

In the past, it was difficult to compress the background for an image with a panned background. However, the present invention does not require background recognition and can be regarded as a slow object. The compression rate can be obtained.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an image compression apparatus according to a first embodiment of the present invention.

FIG. 2 is a schematic configuration diagram of an image compression apparatus according to a second embodiment of the present invention.

FIG. 3 is a schematic configuration diagram of an image compression apparatus according to a third embodiment of the present invention.

FIG. 4 is a compressed data diagram according to the first embodiment of the present invention.

FIG. 5 is a compressed data diagram according to the second embodiment of the present invention.

FIG. 6 is a compressed data diagram according to the third embodiment of the present invention.

FIG. 7 is a schematic configuration diagram of a conventional image compression apparatus.

FIG. 8 is a compressed data diagram of a conventional example.

FIG. 9 is a diagram showing a conventional example and a moving image example for explaining the present invention.

[Explanation of reference numerals] 1,11,21 Input unit 2,12,22 Storage unit 3,13,23 Position comparison unit 4,14,24 Output unit 5,15,25 Image storage unit 6,16,26 Image compression unit 7, 17, 27 Image output section

Claims (3)

[Claims] 1. A device for compressing objects moving in the same manner on a screen, an input unit for inputting position information and image information of an object, a plurality of storage units for holding the position information of the object, and the input unit. A position comparison unit that calculates a difference between position information from a unit and position information stored in the storage unit, an output unit that outputs image information and position information of the object, and image information output from the output unit A plurality of image storage units that store the image information, an image compression unit that performs image compression using the image information output from the output unit and the output from the image storage unit as input, and image compression information output from the image compression unit And an image output unit that outputs the position information output from the output unit. In the first frame, input from the input unit is performed for each of the objects that form the screen. The stored position information and image information are stored in the storage unit, the image information is output from the output unit, the image information output from the output unit is stored in the image storage unit, and the image compression unit The image compression information compressed by the above is output to the image output unit, the position information output from the output unit is output to the image output unit, and for the second and subsequent frames, the object forming the screen is displayed. For each time, the difference between the position information input from the input unit and the position information stored in the storage unit is calculated by the position comparison unit, and when the difference value is larger than a certain value, input from the input unit The output image information from the output unit, and compresses an image from the content of the image storage unit that stores the image information of the object output from the output unit and the image information, and outputs the image to the image output unit. After outputting the compressed information and reading the contents of the storage unit, the image information output from the output unit is stored in the image storage unit, and the position information output from the output unit is output to the image output unit. An image compression device characterized by: 2. An apparatus for compressing objects that move in the same manner on a screen, an input unit for inputting position information and image information of an object, a plurality of storage units for holding position information of the object, and the input unit. A position comparison unit that calculates a difference between position information from a unit and position information stored in the storage unit, an output unit that outputs image information and position information of the object, and image information output from the output unit A plurality of image storage units that store the image information, an image compression unit that performs image compression using the image information output from the output unit and the output from the image storage unit as an input, and image compression information output from the image compression unit And an image output unit that outputs the position information output from the output unit. In the first frame, input from the input unit is performed for each of the objects that form the screen. The stored position information and image information are stored in the storage unit, the image information is output from the output unit, the image information output from the output unit is stored in the image storage unit, and the image compression unit The image compression information compressed by the above is output to the image output unit, the position information output from the output unit is output to the image output unit, and for the second and subsequent frames, the object forming the screen is displayed. For each time, the difference between the position information input from the input unit and the position information stored in the storage unit is calculated by the position comparison unit, and the difference value is output to the image compression unit. The input image information is output from the output unit, and the contents of the image storage unit in which the image information of the object output from the output unit is stored and the image information are input, and the image information from the position comparison unit is input. Difference The image is compressed at a compression rate based on the information, the image compression information is output to the image output unit, the content of the storage unit is read, and then the image information output from the output unit is stored in the image storage unit. Then, the position information output from the output unit is output to the image output unit. 3. The image compression apparatus according to claim 2, wherein, for the second and subsequent frames, the position information input from the input unit and the storage unit are stored for each of the objects constituting the screen. An image compression apparatus characterized in that the position comparison unit calculates a difference between existing position information, and outputs the image information input from the input unit from the output unit only when the difference value is larger than a certain value. .